Lågtempererad fjärrvärme i bostadsområdet Tullkammarkajen
2018 (svensk)Independent thesis Basic level (university diploma), 10 poäng / 15 hp
Oppgave
Abstract [en]
District heating plays a major part of the energy system used for heat supply in Sweden. The starting point of this parameter study have been to investigate the possibilities to provide the area Tullkammarkajen with efficient district heating supply in help of low temperature residual heat and waste heat from a nearby industry. The area is located in the city center of Halmstad and is currently in its planning phase. Facilities and apartments are planned to be built.The study is based on three different parameters: type of system, system temperatures and energy demand. The different type of systems that is analyzed is conventional districtheating, low-temperature district heating with a heat pump as a complement as well as low-temperature district heating with the primary network’s feed line as a complement. Further comparison was made between these parameters, both from an energy wise perspective as well as from an economic perspective.The underlying idea to this study has been to obtain an energy efficient solution that at the same time suits the principle of sustainable development. However, it can clearly be seen in the presented results that it is more profitable to use more conventional methods that are not adapted to sustainable development, based on today’s market. Thus, the question becomes whether the future of innovative solutions or economical funds should be prioritized.
sted, utgiver, år, opplag, sider
2018. , s. 88
Emneord [en]
district heating, low temperature district heating, fourth generation district heating
Emneord [sv]
fjärrvärme, fjärde generationen fjärrvärme, 4GDH, 4GDH-2P, 4GDH-3P, lågtempererad fjärrvärme, energiteknik, värmepump, värmeväxlare, netsim, Halmstads energi och miljö
HSV kategori
Identifikatorer
URN: urn:nbn:se:hh:diva-36885OAI: oai:DiVA.org:hh-36885DiVA, id: diva2:1212015
Eksternt samarbeid
Halmstads Energi och Miljö AB
Fag / kurs
Energy Technology
Utdanningsprogram
Energy Engineer - Renewable Energy, 180 credits
Veileder
Examiner
2018-06-072018-06-012018-06-07bibliografisk kontrollert